adjacent picture carrier spacing

简明释义

相邻图象载波间隔

英英释义

例句

1.The engineer adjusted the adjacent picture carrier spacing to improve the image quality.

工程师调整了相邻图像载体间距以改善图像质量。

2.We measured the adjacent picture carrier spacing to ensure compatibility with the existing system.

我们测量了相邻图像载体间距以确保与现有系统的兼容性。

3.In the new design, the adjacent picture carrier spacing is crucial for optimal performance.

在新设计中，相邻图像载体间距对最佳性能至关重要。

4.Adjusting the adjacent picture carrier spacing can help reduce interference in the display.

调整相邻图像载体间距可以帮助减少显示中的干扰。

5.The specifications require a precise adjacent picture carrier spacing for effective signal transmission.

规格要求精确的相邻图像载体间距以有效传输信号。

作文

In the world of visual media, understanding the technical aspects of image transmission and display is crucial for both professionals and enthusiasts. One such important concept is adjacent picture carrier spacing, which refers to the distance between the carriers of adjacent pictures in a transmission system. This spacing plays a significant role in determining the quality and clarity of the images received by the viewer. When the adjacent picture carrier spacing is optimized, it allows for better signal integrity and reduces the likelihood of interference between the signals of neighboring channels. The significance of adjacent picture carrier spacing can be observed in various applications, including television broadcasting and digital streaming. For instance, in traditional analog television systems, the spacing must be carefully calibrated to avoid overlapping signals that can distort the picture quality. If the spacing is too narrow, viewers may experience ghosting effects or blurred images, which can detract from the overall viewing experience. Conversely, if the spacing is too wide, it can lead to inefficient use of bandwidth and potentially reduce the number of channels available for transmission.Furthermore, with the advent of digital technology, the concept of adjacent picture carrier spacing has evolved. Digital broadcasting employs advanced modulation techniques that require precise calculations of this spacing to ensure optimal performance. In digital systems, the spacing not only affects the quality of the video but also impacts the audio quality, as both signals are transmitted simultaneously. Therefore, engineers must pay close attention to the adjacent picture carrier spacing during the design phase to achieve a harmonious balance between video and audio fidelity.Another aspect worth mentioning is how adjacent picture carrier spacing relates to the phenomenon of multiplexing. Multiplexing allows multiple signals to be transmitted over a single channel by allocating specific bandwidths to each signal. The careful management of adjacent picture carrier spacing is essential in this context to prevent crosstalk, where signals interfere with one another, leading to degraded quality. By ensuring adequate spacing, engineers can maximize the efficiency of the transmission medium while maintaining high-quality output.In conclusion, the concept of adjacent picture carrier spacing is fundamental in the realm of visual media transmission. Its impact on image clarity, signal integrity, and overall viewer experience cannot be overstated. As technology continues to advance, understanding and optimizing this spacing will remain a key focus for professionals in the field. Whether in traditional broadcasting or modern digital platforms, the principles behind adjacent picture carrier spacing will continue to influence the way we consume visual content. By appreciating its importance, we can better understand the intricacies of media technology and its role in shaping our entertainment experiences.

在视觉媒体的世界中，理解图像传输和显示的技术方面对专业人士和爱好者来说至关重要。其中一个重要概念是相邻图像载体间距，它指的是传输系统中相邻图像载体之间的距离。这种间距在决定接收者所看到图像的质量和清晰度方面起着重要作用。当相邻图像载体间距经过优化时，它可以提高信号完整性，并减少相邻频道信号之间干扰的可能性。相邻图像载体间距的重要性可以在各种应用中观察到，包括电视广播和数字流媒体。例如，在传统的模拟电视系统中，必须仔细校准间距，以避免信号重叠导致图像质量失真。如果间距过窄，观众可能会经历重影效果或模糊图像，这会影响整体观看体验。相反，如果间距过宽，可能会导致带宽利用效率低下，并可能减少可用于传输的频道数量。此外，随着数字技术的出现，相邻图像载体间距的概念也发生了变化。数字广播采用先进的调制技术，需要精确计算这种间距以确保最佳性能。在数字系统中，间距不仅影响视频的质量，还影响音频质量，因为这两种信号是同时传输的。因此，工程师在设计阶段必须密切关注相邻图像载体间距，以实现视频和音频保真度之间的和谐平衡。另一个值得提及的方面是相邻图像载体间距如何与多路复用现象相关联。多路复用允许多个信号通过单个通道传输，通过为每个信号分配特定的带宽来实现。在这种情况下，仔细管理相邻图像载体间距对于防止串音至关重要，串音会导致信号相互干扰，从而降低质量。通过确保适当的间距，工程师可以最大化传输介质的效率，同时保持高质量输出。总之，相邻图像载体间距的概念在视觉媒体传输领域是基础性的。它对图像清晰度、信号完整性和整体观众体验的影响不容小觑。随着技术的不断进步，理解和优化这一间距将继续成为该领域专业人士的重点。无论是在传统广播还是现代数字平台上，相邻图像载体间距背后的原理将继续影响我们消费视觉内容的方式。通过欣赏其重要性，我们可以更好地理解媒体技术的复杂性及其在塑造娱乐体验中的作用。